RU66964U1 - DEVICE FOR PREVENTION AND CORRECTION OF HUMAN ORGANISM FUNCTIONAL SYSTEMS - Google Patents

Abstract

A device for the prevention and correction of functional systems of the human body relates to medical equipment and is intended to improve the psychosomatic state of a person, visual functions and other human conditions. The device comprises a lightproof mask 1 with a lightproof eyepiece 2 with an internal light diffusing reflector. Inside the opaque eyepiece 2 there is a screen made of opaque material with holes, hereinafter referred to as a perforated screen 3, opposite the perforated screen 3 there are two light-emitting RGB panels 4 with a visible wavelength of 400-700 nm, rigidly mounted on an electronic board 5, on which is also mounted the master unit, made in the form of a microprocessor 6 with the colorograms recorded in it, consisting of functionally complete fragments, including the effects of a smooth or discrete color change, brightness within the visible spectrum, the rise and fall times of the color pulse and the pause between them, as well as phase and common mode for each of the two RGB panels 4. On the electronic circuit board 5 there is a control unit that has a control panel 7 with a start button and two buttons “+” and “-” select the program number, and two - four-digit indicator 8, made in the form of a display and reflecting the colorogram number. The microprocessor 6 contains a pulse generator 9 for selecting fragments, a pulse generator 10 for selecting colorograms, a non-volatile memory of fragments 11, a non-volatile memory of a sequence of fragments 12, a color former 13 and a digital-to-analog converter, then a DAC 14.

Description

A device for the prevention and correction of functional systems of the human body relates to medical equipment and is intended to improve the psychosomatic state of a person, visual functions and other human conditions.

The device can be used for the prevention and treatment of various pathologies of the organ of vision, including glaucoma, cataracts, pathology of the retina and optic nerve, for correction of vision in congenital weak vision, inability to correct with glasses, myopia, hyperopia, presbyopia, strabismus.

A device is known for correcting the functional systems of the human body, containing glasses with two light-insulated eyepieces, each of which has a light-scattering reflector, inside of which a source of LED radiation is rigidly fixed. In this case, the device has a master oscillator, a power supply, a regulator of brightness and pulse frequency of light radiation, (patent No. 2098059, class. A61F 9/00, 1997).

However, a light-scattering reflector in light-insulated eyepieces does not provide a response of visual neurons, which are important for their activation when the entire retina is illuminated with diffuse (scattered) light, which causes mutual cancellation of the exciting and inhibitory zones of the receptive fields of visual neurons - a phenomenon of antagonism. In this regard, this device does not give the desired effect, and the treatment time is extended.

The closest to the claimed device in terms of essential features is a device for correcting functional systems of the human body, containing glasses with two light-insulated eyepieces, each of which has a light-scattering reflector, inside which a light source is rigidly fixed, while the device has a master oscillator, and a blinking frequency controller light radiation and a power supply unit, a regulator of brightness of light radiation, a control unit connected in series, l modulating pulses and a modulator, the inputs of which are connected respectively to the outputs of the regulator of the blinking frequency of light radiation, and the outputs to the corresponding inputs of the controller

brightness of light radiation, two switches, each of which with its input is connected to a light radiation brightness regulator, and with an output - to a light radiation source, which is a set of LED emitters of different wavelengths of light radiation, a control unit whose outputs are connected to the control inputs of the blinking frequency controller light radiation, a regulator of brightness of light radiation and switches, while in each light scattering reflector opposite the light source is installed light impervious screen with 5-8 holes with a diameter of 1.5-3.5 mm. (see RF patent No. 31721 for a utility model)

A disadvantage of the known device is that the indicator LEDs have a large spread in wavelength per color and thus do not provide the accuracy of the impact of a color on the eyes, due to the presence of perforated screens with five to eight holes with a diameter of 1.5-3.5 mm it does not provide an instant diagnostic effect at the edges of the field of view, as a result, the effectiveness of the prevention and treatment of functional systems of the human body decreases.

The objective of the utility model is to create a device for the prevention and correction of functional systems of the human body, providing increased efficiency and reduced treatment time compared with known devices of the same purpose, as well as the possibility of using the device at home for preventive purposes.

The problem is solved by creating a device for the prevention and correction of functional systems of the human body, containing a body with a light-insulated eyepiece, which has a light-scattering reflector, inside which a light radiation source is rigidly fixed, and a screen made of a lightproof material with holes is installed opposite the light radiation source, while the device has the master unit, the control unit and the power supply, the difference of the device, according to the utility model, is that the housing is made in the form of of an insulated mask, and the light source is made in the form of two light-emitting RGB panels, while the master unit is made in the form of a microprocessor with colorograms recorded in it, consisting of functionally complete fragments including the effects of smooth or discrete color change, brightness within the visible range spectrum, rise and fall times of the color pulse and the pause between them, and the microprocessor contains a pulse selection pulse generator, a colorogram selection pulse generator, non-volatile simuyu fragment memory, nonvolatile memory sequence fragments tsvetogramm shaper and a digital to analog

the converter, and the control unit is equipped with two to four bit indicators, reflecting the colorogram number.

The implementation of the light radiation source in the form of two light-emitting RGB-panels provides a better uniformity of illumination throughout the field compared with the known sources of light radiation. The execution of the master unit in the form of a microprocessor with the colorograms recorded in it, consisting of functionally complete color fragments, including the effects of smooth or discrete color changes, brightness within the visible spectrum, rise and fall times of the color pulse and the pause between them provides an alternating effect on the eyes with a period of 1-10 seconds, continuous exposure to both eyes, continuous exposure to one eye and periodic exposure to the other, any of the above modes with a frequency of 1-32 Hz

It is advisable that the screen of opaque material was made with 3-12 holes with a diameter of 0.5-1.45 mm or 3.55-4.0 mm.

The implementation of the screen from a lightproof material with 3-12 holes with a diameter of 0.5-3.45 mm or 3.55-4.0 mm provides an additional effect of prevention and treatment by increasing the effect on the retina of the eye over the entire field of view.

The claimed device is illustrated by drawings, where Fig.1 schematically shows the claimed device, a top view, Fig.2 is a structural diagram of the device, Fig.3 is a block diagram of the device.

A device for the prevention and correction of functional systems of the human body contains a lightproof mask 1 with a lightproof eyepiece 2 with an internal light-scattering reflector. Inside the opaque eyepiece 2 there is a screen made of opaque material with holes, hereinafter referred to as a perforated screen 3, opposite the perforated screen 3 there are two light-emitting RGB panels 4 with a visible wavelength of 400-700 nm, rigidly mounted on an electronic board 5, on which is also mounted the master unit, made in the form of a microprocessor 6 with the colorograms recorded in it, consisting of functionally complete fragments, including the effects of a smooth or discrete color change, brightness within the visible spectrum, the rise and fall times of the color pulse and the pause between them, as well as the phase and

in phase for each of the two RGB panels 4. A control unit is installed on the electronic board 5, which has a control panel 7 with a “start” button and two “+” and “-” buttons to select a program number, and two - four digit indicators 8, made in the form of a display and reflecting the colorogram number. The microprocessor 6 contains a pulse generator 9 for selecting fragments, a pulse generator 10 for selecting colorograms, a non-volatile memory for fragments 11, a non-volatile memory for a sequence of fragments 12, a color former 13 and a digital-to-analog converter, then a DAC 14. In this case, the pulse generators are connected to the control panel 7, with a central digital counter 14 and, accordingly, with non-volatile memory of fragments 11 and non-volatile memory of a sequence of fragments 12, the color former 13 is connected to the control panel 7, with energy non-volatile memory of fragments 11, with non-volatile memory of the sequence of fragments 12 and DAC 14, which is also connected to RGB panels 4. The device is equipped with an external power supply unit - adapter 15.

The pulse generator 9 generates signals for outputting information from the non-volatile memory of fragments 11, in which fragments of colorograms are hard-coded in digital form: mixing of RGB pulses, their amplitude, rise, fall, and the distance between them. The pulse generator 10 generates signals for outputting information from the non-volatile memory of the sequence of fragments 12, in which the colorograms are hard-coded in digital form: a sequence of fragments, their quantitative, phase, in-phase repetition. The colorimeter 13 generates a sequence of fragments, their quantitative component, phase and common mode.

The RGB panels 4 used in the inventive device are a single-crystal LED emitter of the visible spectrum with a length of 400 to 700 nm and are widely used to obtain accurate and multi-tint colors in LCD monitors, when illuminating design elements, decorations, etc. The RGB panel case is lined with a mirror surface around the perimeter for better light scattering inside the case; a single-chip RGB LED is rigidly fixed, which, unlike single-case RGB LEDs, gives colors (R - red) that are more accurate in the wavelength of the visible spectrum (400-700 nm) , G - green, B - blue) and their mixing.

The device operates as follows.

The patient is put on a lightproof mask 1 with a lightproof eyepiece 2, on the control panel 7, press the desired button "program number selection",

in this case, the program number is reflected in a two to four bit indicator 8. At the same time, the signal from the control panel 7 enters the pulse generator 9 of the fragment selection and the pulse generator 10 of the colorogram selection, from where the signals, in turn, enter the non-volatile memory of the fragments 11 and the non-volatile memory of the sequence fragments 12, from which the signals enter the color former 13, from which, after pressing the start button on the control panel 7, the digital-to-analog coder 14 is received. From the digital-to-analog coder 14 a series of impulses s in analog form reflecting the RGB-level pulse amplitude, rise, recession distance between them and their number, i.e. one or another sequence of color pulses within the visible spectrum (400-700) nm and their number is supplied to the RGB panel 4, which is the final result of exposure through the patient's eyes to its functional state. After the last fragment of the selected program, the DAC 14 disables the pulse generator 9 of the fragment selection and the pulse generator 10 of the colorogram selection. The device is ready to select a new program.

The claimed device in comparison with known devices of the same purpose provides higher efficiency and reduction of treatment time for functional systems of the body by providing better uniformity of glow throughout the field, creating effects of smooth or discrete color change, brightness within the visible spectrum, rise and fall times of color pulse and pause between them provides an alternating effect on the eyes with a period of 1-10 seconds, continuous exposure to both eyes, continuous exposure I am on one eye and intermittent exposure on the other.

The device has small dimensions, which allows you to use the device at home for preventive purposes.

Claims (2)

1. A device for the prevention and correction of functional systems of the human body, comprising a body with a light-insulated eyepiece, which has a light-scattering reflector, inside which a light radiation source is rigidly fixed, and a screen made of a light-proof material with holes is installed opposite the light radiation source, while the device has a driver unit , a control unit and a power supply, characterized in that the housing is made in the form of a light-insulated mask, and the light source is made in the form two light-emitting RGB panels, wherein the master unit is made in the form of a microprocessor with colorograms recorded therein, consisting of functionally complete fragments, the microprocessor comprising a fragment selection pulse generator, a colorogram selection pulse generator, non-volatile fragment memory, non-volatile fragment sequence memory, and colorogram shaper and a digital-to-analog converter, and the control unit is equipped with a two-, four-digit indicator, reflecting the colorogram number. 2. A device for the prevention and correction of functional systems of the human body according to claim 1, characterized in that the screen is made of opaque material with 3-12 holes with a diameter of 0.5-1.45 mm or 3.55-4.0 mm.